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Series: ASM Handbook
Volume: 14B
Publisher: ASM International
Published: 01 January 2006
DOI: 10.31399/asm.hb.v14b.a0005168
EISBN: 978-1-62708-186-3
... Abstract This article discusses the numerical simulation of the forming of aluminum alloy sheet metals. The macroscopic and microscopic aspects of the plastic behavior of aluminum alloys are reviewed. The article presents constitutive equations suitable for the description of aluminum alloy...
Abstract
This article discusses the numerical simulation of the forming of aluminum alloy sheet metals. The macroscopic and microscopic aspects of the plastic behavior of aluminum alloys are reviewed. The article presents constitutive equations suitable for the description of aluminum alloy sheets. It explains testing procedures and analysis methods that are used to measure the relevant data needed to identify the material coefficients. The article describes the various formulations of finite element methods used in sheet metal forming process simulations. Stress-integration procedures for both continuum and crystal-plasticity mechanics are also discussed. The article also provides various examples that illustrate the simulation of aluminum sheet forming.
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Published: 01 December 1998
Fig. 5 SiC whisker-reinforced (20 vol% SiC) aluminum alloy sheet with the whiskers aligned in the direction of rolling
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in Mechanisms and Appearances of Ductile and Brittle Fracture in Metals
> Failure Analysis and Prevention
Published: 15 January 2021
Fig. 26 Diffuse localized necks in an 1100 aluminum alloy sheet tensile specimen. Source: Ref 52
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Published: 30 November 2018
Fig. 9 SiC whisker-reinforced (20 vol% SiC) aluminum alloy sheet with the whiskers aligned in the direction of rolling
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Published: 01 January 2001
Fig. 4 SiC whisker-reinforced (20 vol% SiC) aluminum alloy sheet with the whiskers aligned in the direction of rolling
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in Significance of Mechanical Properties in Design and Application
> Properties and Selection of Aluminum Alloys
Published: 15 June 2019
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Published: 15 June 2019
Fig. 18 Ratio of axial-stress fatigue strength of aluminum alloy sheet in 3% NaCl solution to that in air. Specimens were 1.6 mm (0.064 in.) thick.
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Published: 01 January 2005
Fig. 18 Ratio of axial-stress fatigue strength of aluminum alloy sheet in 3% NaCl solution to that in air. Specimens were 1.6 mm (0.064 in.) thick
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Series: ASM Desk Editions
Publisher: ASM International
Published: 01 December 1998
DOI: 10.31399/asm.hb.mhde2.a0003126
EISBN: 978-1-62708-199-3
... of temperatures on tensile strength, yield strength, and elongation, and the mechanical properly limits for aluminum alloy die forgings, non-heat-treatable and heat-treatable aluminum alloy sheets and plates, and non-heat-treatable aluminum alloy extruded wires, rods, bars, and shapes. aluminum alloy die...
Abstract
This article is a comprehensive collection of property data for wrought aluminum and aluminum alloys. Data are provided for the physical properties and mechanical properties of wrought aluminum and aluminum alloys. The listing also includes values that indicate the effect of temperatures on tensile strength, yield strength, and elongation, and the mechanical properly limits for aluminum alloy die forgings, non-heat-treatable and heat-treatable aluminum alloy sheets and plates, and non-heat-treatable aluminum alloy extruded wires, rods, bars, and shapes.
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Published: 01 January 2006
Fig. 25 Comparison of plasticity predictions for various in-plane sheet directions for several yield functions fit to a 6022-T4 aluminum alloy sheet. (a) Plastic anisotropy parameter ( r -value). (b) Yield stresses normalized to yield stress in the rolling direction (0°)
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Published: 01 January 1996
Fig. 10 Critical stress intensity factor, K c , vs. tensile yield strength for 1.0 to 4.7 mm (0.040 to 0.188 in.) aluminum alloy sheet. Improved alloy 7475 is compared to other commercial alloys. Source: Ref 10
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Published: 15 June 2019
Fig. 21 Critical stress-intensity factor, K c , vs. tensile yield strength for 1.0 to 4.7 mm (0.040 to 0.188 in.) aluminum alloy sheet. Improved alloy 7475 is compared to other commercial alloys. Source: Ref 43
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in Significance of Mechanical Properties in Design and Application
> Properties and Selection of Aluminum Alloys
Published: 15 June 2019
Fig. 20 Effect of temperature on unit propagation energies of 1.6 mm (0.063 in.) aluminum alloy sheet
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Published: 01 June 2016
Fig. 38 Effects of room-temperature aging on electrical conductivity of as-quenched aluminum alloy sheet. Source: Ref 2
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Published: 01 January 1996
Fig. 25 Comparison of axial-stress fatigue strengths of 0.032 in. aluminum alloy sheet in seawater and air. Source: Ref 33
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Published: 15 June 2019
Fig. 17 Comparison of axial-stress fatigue strengths of 0.812 mm (0.032 in.) aluminum alloy sheet in seawater and air. Source: Ref 4
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Published: 01 June 2016
Fig. 59 Effect of quench rate on transverse yield properties of several commercial 7 xxx aluminum alloy sheets aged to T6 temper. Source: Ref 176
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Published: 30 November 2018
Fig. 33 Effect of quench rate on transverse yield properties of several commercial 7 xxx aluminum alloy sheet aged to the T6 temper. Source: Ref 96
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Published: 01 January 2006
Fig. 20 Predicted effective stress superimposed on the deformed mesh for simple shear specimens of aluminum alloy sheet samples: (a) 1050-O and (b) 6022-T4. Source: Ref 177
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in Significance of Mechanical Properties in Design and Application
> Properties and Selection of Aluminum Alloys
Published: 15 June 2019
Fig. 21 Effect of temperature on notch-yield ratios for 3.2 mm (⅛ in.) aluminum alloy sheet; average of longitudinal and transverse directions. Notch-yield ratio = notch-tensile strength ÷ tensile yield strength
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